Errors when subsetting VCFs by BEDs
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2.8 years ago

Hi community, I am having trouble subsetting VCFs files based on positions (BED). I've read the following posts:

I first download a sample VCF file. As suggested in previous questions I've asked here, I am using the genome in a bottle sample genomes (NA12878).

wget ftp://ftp-trace.ncbi.nlm.nih.gov/ReferenceSamples/giab/release/NA12878_HG001/latest/GRCh38/SupplementaryFiles/HG001_GRCh38_1_22_v4.2.1_all.vcf.gz

I unzip and inspect this file and I can see it is chr1 based.

Next, I have my file with rsid variants(100k-200k variants). As I only have their name, I get their positions in the hg38 genome using g:Profiler SNPense. With this tool, I am able to retrieve the positions in the latest hg38 Ensembl genome build. Since these coordinates are Ensembl-like, I add a chr before the chromosome number and an end position. I end up with a file looking like this:

chr1    103658487   103658487   rs1553200208
chr1    103658557   103658557   rs1553200209
chr1    103660358   103660358   rs756900103
chr1    103660373   103660373   rs1053446789
chr1    103660374   103660374   rs780631463

I was not sure if I had to use 0-based or 1-based bed files, so I basically made both. So, I have another file looking like this:

chr1    103658487   103658488   rs1553200208
chr1    103658557   103658558   rs1553200209
chr1    103660358   103660359   rs756900103
chr1    103660373   103660374   rs1053446789
chr1    103660374   103660375   rs780631463

Next, I used the following tools: bcftools, vcftools, bedtools and tabix to try to subset the original genomes and obtain my candidate variants. All the tools just retrieved only a few hundred regions... which I am especially doubtful about. Here is my code for each of them:

#Tabix: I first make a tbi file and then use the tool to subset my list of variants
tabix -p vcf HG001_GRCh38_1_22_v4.2.1_all.vcf.gz
tabix -R my_bed_regions.txt HG001_GRCh38_1_22_v4.2.1_all.vcf.gz > tabix_output.vcf

#Bcftools
bcftools filter -R my_bed_regions.txt HG001_GRCh38_1_22_v4.2.1_all.vcf.gz > bcftools_output.vcf

#bedtools
bedtools intersect -a HG001_GRCh38_1_22_v4.2.1_all.vcf.gz  -b my_bed_regions.txt -header > bedtools_output.vcf

I tried each of the tools with 1-based and 0-based bed files. None retrieves many regions, just a few (between 100-300).

It's my first time working with these types of files but I do not think that a thousand variants are not found in a genome containing 3 × 10^6 variants. For instance, these 5 variants I am adding here as an example are not found. So I think I have a problem somewhere but I cannot figure it out. Thank you in advance for your insights.

vcf vcftools bcftools bedtools • 1.5k views
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2.8 years ago

I was not sure if I had to use 0-based or 1-based bed files

a bed is always 0-based. but looking at

chr1    103660374   103660374   rs780631463

it look likes the file you're using is 1-based.

$ mysql --user=genome --host=genome-mysql.soe.ucsc.edu -A -P 3306 -D hg38 -e 'select chrom,chromStart from snp151 where name="rs780631463"'
+-------+------------+
| chrom | chromStart |
+-------+------------+
| chr1  |  103660373 |
+-------+------------+

so the right bed should be

chr1    103660373   103660374   rs780631463
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But OP said this:

I tried each of the tools with 1-based and 0-based bed files. None retrieves many regions, just a few (between 100-300).

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Yes, I tried with both kinds of files. The result is the same. Only a few handful regions are retrieved from the original VCF. I don't know what the problem could be. I even tried with a different input VCF (the Ashkenazi son and a Human Personal Genome) and using samples that were either hg38 or hg19 genomes.

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Perhaps that is all there is in terms of overlap? Do you expect more?

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Honestly, I would expect more even just by "chance". I find it strange that none of the three genomes retrieve many regions.

Am I expecting too much for a whole exome? I mean, I would expect to find these 100.000 variants to be there... are they not sequenced? How do people find variants of interest in a genome?

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well if I peek a random rs# in your list rs780631463 https://gnomad.broadinstitute.org/variant/1-104202996-G-A?dataset=gnomad_r2_1 : is just too rare to be present in gnomad / genome.

How do people find variants of interest in a genome?

please define "variants of interest".

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Oh, thank you for that observation. I haven't thought of doing that. The variants of interest are just a bunch of rsid I received from someone else and was told to find them in a sample whole-exome. I think the selection was made just by retrieving overlapping rsid to a subset of genes of interest. Like, they had candidate genes, I think they retrieved all coding dbSNPs and these are their candidate "variants of interest".

I am learning along the way as well because I've never worked with these type of data before, but now it makes sense that variant callers would only retrieve variant-sites and not same-as-reference-genome sites, right?

Perhaps these sites at dbSNPs are not that variable? That's why nothing is retrieved from the variant-callers? Am I understanding this correctly?

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but now it makes sense that variant callers would only retrieve variant-sites and not same-as-reference-genome sites, right?

yes

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Just wanted to make the time to thank you all for helping me debug/rethink this. I was so focused on the scripting I didn't thought about the most basic stuff :)

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Do not delete posts that have received feedback. Interact with the people that have invested effort into helping you, and work towards providing closure to your post.

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